Abstract
The winter wheat–summer maize double cropping system caused overexploitation of groundwater in the North China Plain; it is unsustainable and threatens food security and the overall wellbeing of humankind in the region. Finding water-saving cropping systems without compromising food security is a more likely solution. In this study, six alternative cropping systems’ water conservation and food supply capacity were compared simultaneously. A combined water footprint method was applied to analyze the cropping systems’ water consumption. The winter wheat–summer maize system had the largest water consumption (16,585 m3/ha on average), followed by the potato/spring maize, spinach–spring maize, rye–spring maize, vetch–spring maize, pea/spring maize, soybean||spring maize and mono-spring maize cropping systems. For the groundwater, the spinach–spring maize, pea/spring maize, soybean||spring maize systems showed a higher degree of synchronization between crop growth period and rainfall, which could reduce use of groundwater by 36.8%, 54.4% and 57.6%, respectively. For food supply capacity, the values for spinach–spring maize, pea/spring maize, soybean||spring maize systems were 73.0%, 60.8% and 48.4% of winter wheat–summer maize, respectively, but they showed a better feeding efficiency than the winter wheat–summer maize system. On the whole, spinach–spring maize may be a good option to prevent further decline in groundwater level and to ensure food security in a sustainable way.
Highlights
The overexploitation of freshwater resources threatens food security and the overall wellbeing of humankind in many parts of the world [1]
The results indicated that the winter wheat–summer maize system had the largest water consumption (Figure 2)
The results showed that 1 hectare of the winter wheat–summer maize system could produce enough food energy to feed 116 people per year on average, the spinach–spring maize, potato/spring maize, pea/spring maize, vetch–spring maize, rye–spring maize, mono-spring maize and soybean||spring maize cropping systems, could feed 84, 81, 70, 60, 58, 57, 56 people, respectively
Summary
The overexploitation of freshwater resources threatens food security and the overall wellbeing of humankind in many parts of the world [1]. In China, the severe consequences of overexploitation of groundwater have shown in the North China Plain (NCP), where more than 300 million people live. In the past 50 years, the annual decrease in the groundwater reserve in the NCP was 4.8 billion cubic meters, and the cumulative decrease reached. 220 billion cubic meters [10]. Groundwater overexploitation has caused river dry-up, lake shrinkage, aquifer depletion, and land subsidence in many areas [11,12]. During the last 10 years, the maximum depth of the shallow groundwater depression area increased from 52 m to 70 m, and the water table in the deep groundwater cone center dropped to 100 m below the surface in 2013 [13]
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